Serial Port Profiles

Modbus Slave Advanced Settings Field Descriptions

Configure the following parameters:

TCP/UDP Port The network port number that the Slave Gateway will listen on for both TCP and UDP messages.

Default: 502

Next Request Delay A delay, in milliseconds, to allow serial slave(s) to re-enable receivers before issuing next Modbus Master request.

Range: 0-1000

Default: 50 ms

Enable Serial When enabled, a UID of 0 (zero) indicates that the message will be broadcast to Modbus Broadcasts all Modbus Slaves.

Default: Disabled

Request Queuing

When enabled, allows multiple, simultaneous messages to be queued and

 

processed in order of reception.

 

Default: Enabled

Embedded

When this option is selected, the address of the slave Modbus device is

 

embedded in the message header.

 

Default: Enabled

Remapped

Used for single device/port operation. Older Modbus devices may not include a

 

UID in their transmission header. When this option is selected, you can specify

 

the UID that will be inserted into the message header for the Modbus slave

 

device. This feature supersedes the Broadcast feature.

 

Default: Disabled

Remap UID

Specify the UID that will be inserted into the message header for the Slave

 

Modbus serial device.

 

Range: 1-247

 

Default: 1

112

Page 112
Image 112
Perle Systems TS2, DS1 manual Modbus Slave Advanced Settings Field Descriptions

DS1, TS2 specifications

Perle Systems TS2 and DS1 are advanced serial-to-Ethernet devices designed to facilitate seamless integration of serial devices with modern IP networks. These devices serve as crucial tools for businesses looking to enhance their communication capabilities while leveraging existing infrastructure.

One of the standout features of the Perle TS2 and DS1 is their ability to support multiple serial protocols including RS232, RS422, and RS485. This versatile support allows businesses to connect various legacy devices to their networks, ensuring that critical equipment can still communicate effectively in an increasingly digital landscape.

The TS2 model is particularly noted for its dual serial ports, enabling simultaneous communication with multiple devices. This capability is invaluable for applications requiring real-time data transmission, such as remote monitoring and automated control systems. The DS1 model, on the other hand, is designed for single-port use, making it an ideal solution for smaller-scale operations or specific single-device connections.

Both the TS2 and DS1 incorporate advanced features such as configuration through a web interface, which simplifies setup and management. Users can easily access device settings and monitor performance metrics remotely, enhancing operational efficiency. These devices also support various network protocols such as TCP/IP, UDP, and ICMP, ensuring compatibility with a wide range of network architectures.

In terms of security, Perle Systems prioritize user data protection. The TS2 and DS1 offer features including SSL encryption and SSH protection, providing an added layer of security for sensitive information transmitted over the network. This is particularly important for industries where data integrity and security are paramount, such as healthcare and finance.

Additionally, the rugged design of both devices ensures reliable performance even in harsh environments. With extended temperature ratings and robust housing, the TS2 and DS1 can operate in diverse conditions without compromising functionality.

To summarize, the Perle Systems TS2 and DS1 provide a reliable and flexible solution for connecting legacy serial devices to modern networks. With their support for multiple serial protocols, web-based management, robust security features, and rugged design, these devices cater to a variety of industries looking to modernize their communication infrastructure while maintaining existing equipment. Whether for large-scale operations or smaller implementations, the TS2 and DS1 equip businesses with the tools needed for effective serial communication in an IP-driven world.